Modelling the Wind-Borne Spread of Highly Pathogenic Avian Influenza Virus between Farms

Amos Ssematimba, Thomas J. Hagenaars, M.C.M. de Jong

Type: Article

Publication Date: 2012-02-14

Citations: 76

DOI: https://doi.org/10.1371/journal.pone.0031114

Abstract

A quantitative understanding of the spread of contaminated farm dust between locations is a prerequisite for obtaining much-needed insight into one of the possible mechanisms of disease spread between farms. Here, we develop a model to calculate the quantity of contaminated farm-dust particles deposited at various locations downwind of a source farm and apply the model to assess the possible contribution of the wind-borne route to the transmission of Highly Pathogenic Avian Influenza virus (HPAI) during the 2003 epidemic in the Netherlands. The model is obtained from a Gaussian Plume Model by incorporating the dust deposition process, pathogen decay, and a model for the infection process on exposed farms. Using poultry- and avian influenza-specific parameter values we calculate the distance-dependent probability of between-farm transmission by this route. A comparison between the transmission risk pattern predicted by the model and the pattern observed during the 2003 epidemic reveals that the wind-borne route alone is insufficient to explain the observations although it could contribute substantially to the spread over short distance ranges, for example, explaining 24% of the transmission over distances up to 25 km.

Locations

PLoS ONE - View - PDF
PubMed Central - View
Europe PMC (PubMed Central) - View - PDF
DOAJ (DOAJ: Directory of Open Access Journals) - View
PubMed - View

Similar Works

Action	Title	Year	Authors
+	Mechanisms of Avian Influenza virus transmission between farms: combining data collection and mathematical modelling	2013	Amos Ssematimba
+	Exploring the Wind-Borne Spread of Highly Pathogenic Avian Influenza H5N8 During the 2016–2017 Epizootic in France	2018	Claire Guinat Nathalie Rouchy Floriane Camy Jean‐Luc Guérin Mathilde Paul
+ PDF Chat	A Bayesian Nonparametric Analysis of the 2003 Outbreak of Highly Pathogenic Avian Influenza in the Netherlands	2021	Rowland G. Seymour Theodore Kypraios Philip D. O’Neill Thomas J. Hagenaars
+	Spread of avian influenza in The Netherlands: identifying areas at high risk.	2007	Gert Jan Boender A.R.W. Elbers M.C.M. de Jong
+	Modeling Airborne Disease Dynamics: Progress and Questions	2023	A B Mukherjee Saptarshi Basu Shubham Sharma Swetaprovo Chaudhuri
+	Simulating near-field enhancement in transmission of airborne viruses with a quadrature-based model	2021	Laura Fierce Alison J. Robey Cathrine Hamilton
+ PDF Chat	Simulating near‐field enhancement in transmission of airborne viruses with a quadrature‐based model	2021	Laura Fierce Alison J. Robey Cathrine Hamilton
+	Computational Modeling Framework for the Study of Infectious Disease Spread through Commercial Air-Travel	2020	Pierrot Derjany Sirish Namilae Dahai Liu Srinivasan Ashok
+ PDF Chat	Environmental transmission of low pathogenicity avian influenza viruses and its implications for pathogen invasion	2009	Pejman Rohani Romulus Breban David E. Stallknecht John M. Drake
+ PDF Chat	Spread Pattern Formation of H5N1-Avian Influenza and its Implications for Control Strategies	2008	R. Liu Venkata R. Duvvuri Jian Wu
+ PDF Chat	Trade-off between local transmission and long-range dispersal drives infectious disease outbreak size in spatially structured populations	2020	Elisa Benincà Thomas J. Hagenaars Gert Jan Boender Jan van de Kassteele Michiel van Boven
+ PDF Chat	Estimating the introduction time of highly pathogenic avian influenza into poultry flocks	2020	Peter H. F. Hobbelen A.R.W. Elbers Marleen Werkman Guus Koch Francisca C. Velkers Arjan Stegeman Thomas J. Hagenaars
+	Modelling of human exhaled sprays and aerosols to enable real-time estimation of spatially-resolved infection risk in indoor environments	2022	Daniel Fredrich Aliyah M. Akbar Muhammad Faieq bin Mohd Fadzil Afxentis Giorgallis Alexander Kruse Noah Liniger Lazaros Papachristodoulou Andrea Giusti
+ PDF Chat	The Role of Airborne Particles in the Epidemiology of Clade 2.3.4.4b H5N1 High Pathogenicity Avian Influenza Virus in Commercial Poultry Production Units	2023	Joe James Caroline J. Warren Dilhani De Silva Tom Lewis Katherine Grace Scott M. Reid Marco Falchieri Ian H. Brown Ashley C. Banyard
+ PDF Chat	Rapid estimation of viral emission source location via genetic algorithm	2022	Lee Clemon
+ PDF Chat	Modeling and Mathematical Analysis of Bio-aerosol Transmission of Avian Influenza	2022	Arnaud Feukouo Fossi
+	Spatiotemporal Modeling and Simulation of COVID-19 Spread in Poultry Processing Plants	2021	Olga Kemenova Paula Gómez Khatereh Hadi Matthew Swarts
+ PDF Chat	A review of back-calculation techniques and their potential to inform mitigation strategies with application to non-transmissible acute infectious diseases	2015	Joseph R. Egan Ian Hall
+ PDF Chat	Analytical assessment of workers' safety concerning direct and indirect ways of getting infected by dangerous pathogen	2024	Krzysztof Domino Arkadiusz Sochan Jarosław Adam Miszczak
+	The role of wild birds in transmitting highly pathogenic avian influenza in Denmark: An exploration using a spatiotemporal model	2025	Y. Liu Lene Jung Kjær Anette Boklund Preben Clausen Timme Nyegaard Michael P. Ward Shawn W. Laffan Carsten Kirkeby

Works That Cite This (22)

Action	Title	Year	Authors
+	Dynamics of the 2004 avian influenza H5N1 outbreak in Thailand: The role of duck farming, sequential model fitting and control	2018	Renata Retkutė Chris Jewell Thomas P. Van Boeckel Geli Zhang Xiangming Xiao Weerapong Thanapongtharm Matt J. Keeling Marius Gilbert Michael J. Tildesley
+	Infection Risk Assessment of COVID-19 through Aerosol Transmission: a Case Study of South China Seafood Market	2020	Xiaole Zhang Zheng Ji Yang Yue Huan Liu Jing Wang
+ PDF Chat	Predicting the Prevalence of COVID-19 and its Mortality Rate in Iran Using Lyapunov Exponent	2020	Fatemeh Mohammadi Saeedeh Kouzehgari
+ PDF Chat	Airborne transmission may have played a role in the spread of 2015 highly pathogenic avian influenza outbreaks in the United States	2019	Yang Zhao Brad Richardson Eugene S. Takle Lilong Chai David Schmitt Hongwei Xin
+	A review of knowledge discovery process in control and mitigation of avian influenza	2019	Samira Yousefi Naghani Rozita Dara Zvonimir Poljak Shayan Sharif
+ PDF Chat	Associations between Temperature and Influenza Activity: A National Time Series Study in China	2021	Can Chen Xiaobao Zhang Daixi Jiang Danying Yan Zhou Guan Yuqing Zhou Xiaoxiao Liu Chenyang Huang Cheng Ding Lei Lan
+	Between-group pathogen transmission: From processes to modeling	2018	Thierry Hoch Suzanne Touzeau Anne-France Viet Pauline Ezanno
+ PDF Chat	A Multi-scale Analysis of Influenza A Virus Fitness Trade-offs due to Temperature-dependent Virus Persistence	2013	Andreas Handel Justin D. Brown David E. Stallknecht Pejman Rohani
+	The complex associations of climate variability with seasonal influenza A and B virus transmission in subtropical Shanghai, China	2019	Yuzhou Zhang Chuchu Ye Jianxing Yu Weiping Zhu Yuanping Wang Zhongjie Li Zhiwei Xu Jian Cheng Ning Wang Lipeng Hao
+ PDF Chat	The Role of Airborne Particles in the Epidemiology of Clade 2.3.4.4b H5N1 High Pathogenicity Avian Influenza Virus in Commercial Poultry Production Units	2023	Joe James Caroline J. Warren Dilhani De Silva Tom Lewis Katherine Grace Scott M. Reid Marco Falchieri Ian H. Brown Ashley C. Banyard

Works Cited by This (2)

Action	Title	Year	Authors
+ PDF Chat	On the definition and the computation of the basic reproduction ratio R 0 in models for infectious diseases in heterogeneous populations	1990	Odo Diekmann Hans Heesterbeek J.A.J. Metz
+	Back-calculation method shows that within-flock transmission of highly pathogenic avian influenza (H7N7) virus in the Netherlands is not influenced by housing risk factors	2009	Marian E. H. Bos M. Nielen Guus Koch A. Bouma M.C.M. de Jong Arjan Stegeman